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Pressure when Force per Unit Area on the Fluid Element is Given Solution

STEP 0: Pre-Calculation Summary
Formula Used
pressure = -Force/Area Element*Unit Vector Normal to the Surface
P = -F/δA*
This formula uses 3 Variables
Variables Used
Force - Force is any interaction that, when unopposed, will change the motion of an object. In other words, a force can cause an object with mass to change its velocity. (Measured in Newton)
Area Element - Area Element of fluid the force is being acted upon. (Measured in Square Millimeter)
Unit Vector Normal to the Surface- Unit Vector Normal to the Surface
STEP 1: Convert Input(s) to Base Unit
Force: 2.5 Newton --> 2.5 Newton No Conversion Required
Area Element: 10 Square Millimeter --> 1E-05 Square Meter (Check conversion here)
Unit Vector Normal to the Surface: 1 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
P = -F/δA* --> -2.5/1E-05*1
Evaluating ... ...
P = -250000
STEP 3: Convert Result to Output's Unit
-250000 Pascal --> No Conversion Required
FINAL ANSWER
-250000 Pascal <-- Pressure
(Calculation completed in 00.031 seconds)

11 Other formulas that you can solve using the same Inputs

Heat Loss due to Pipe
heat_loss_due_to_pipe = (Force*Length*Fluid Velocity^2)/(2*Diameter *Acceleration Due To Gravity) Go
Work
work = Force*Displacement*cos(Angle A) Go
Torque
torque = Force*Displacement*sin(θ) Go
Gravitational Field Intensity
gravitational_field_intensity = Force/Mass Go
Viscous Force Per Unit Area
viscous_force_per_unit_area = Force/Area Go
Electric Field Intensity
electric_field_intensity = Force/Charge Go
Impulse
impulse = Force*Time Taken to Travel Go
Body Force Work Rate
body_force_work_rate = Force/Volume Go
Surface Tension
surface_tension = Force/Length Go
Pressure when force and area are given
pressure = Force/Area Go
Stress
stress = Force/Area Go

11 Other formulas that calculate the same Output

Modified pressure equation for cylindrical blast wave
pressure = [BoltZ]*Freestream density*(sqrt(pi/8))*Diameter *(sqrt(Drag Coefficient))*(Freestream Velocity^2/Distance from X-axis) Go
Pressure for the cylindrical blast wave
pressure = Boltzmann constant 1*Freestream density*((Energy/Freestream density)^(1/2))/(Time) Go
formula For creation pressure for the planar blast wave
pressure = [BoltZ]*Freestream density*((Energy/Freestream density)^(2/3))*(Time)^(-2/3) Go
Pressure when density and height are given
pressure = Density*Acceleration Due To Gravity*Height Go
Pressure during retraction
pressure = Force/(Area of piston-Area of piston rod) Go
Pressure when Resultant is Outside Middle Third
pressure = 2*Total downward force on soil/(3*middle third distance) Go
Pressure of the liquid entering the motor
pressure = Theoretical torque/Theoretical volumetric displacement Go
Pressure
pressure = (1/3)*Density of Gas*(Root mean square velocity)^2 Go
Pressure in Excess of Atmospheric Pressure
pressure = (specific weight of liquid)*(Height) Go
Pressure exerted
pressure = Force/Area of piston Go
Pressure when force and area are given
pressure = Force/Area Go

Pressure when Force per Unit Area on the Fluid Element is Given Formula

pressure = -Force/Area Element*Unit Vector Normal to the Surface
P = -F/δA*

What are Tides?

Tides are very long-period waves that move through the oceans in response to the forces exerted by the moon and sun. Tides originate in the oceans and progress toward the coastlines where they appear as the regular rise and fall of the sea surface.

How to Calculate Pressure when Force per Unit Area on the Fluid Element is Given?

Pressure when Force per Unit Area on the Fluid Element is Given calculator uses pressure = -Force/Area Element*Unit Vector Normal to the Surface to calculate the Pressure, Pressure when Force per Unit Area on the Fluid Element is Given is defined as the pressure at a point within a fluid arising due to the weight of the fluid. Pressure and is denoted by P symbol.

How to calculate Pressure when Force per Unit Area on the Fluid Element is Given using this online calculator? To use this online calculator for Pressure when Force per Unit Area on the Fluid Element is Given, enter Force (F), Area Element (δA) and Unit Vector Normal to the Surface (nˆ) and hit the calculate button. Here is how the Pressure when Force per Unit Area on the Fluid Element is Given calculation can be explained with given input values -> -250000 = -2.5/1E-05*1.

FAQ

What is Pressure when Force per Unit Area on the Fluid Element is Given?
Pressure when Force per Unit Area on the Fluid Element is Given is defined as the pressure at a point within a fluid arising due to the weight of the fluid and is represented as P = -F/δA* or pressure = -Force/Area Element*Unit Vector Normal to the Surface. Force is any interaction that, when unopposed, will change the motion of an object. In other words, a force can cause an object with mass to change its velocity, Area Element of fluid the force is being acted upon and Unit Vector Normal to the Surface.
How to calculate Pressure when Force per Unit Area on the Fluid Element is Given?
Pressure when Force per Unit Area on the Fluid Element is Given is defined as the pressure at a point within a fluid arising due to the weight of the fluid is calculated using pressure = -Force/Area Element*Unit Vector Normal to the Surface. To calculate Pressure when Force per Unit Area on the Fluid Element is Given, you need Force (F), Area Element (δA) and Unit Vector Normal to the Surface (nˆ). With our tool, you need to enter the respective value for Force, Area Element and Unit Vector Normal to the Surface and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Pressure?
In this formula, Pressure uses Force, Area Element and Unit Vector Normal to the Surface. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • pressure = Force/Area
  • pressure = Density*Acceleration Due To Gravity*Height
  • pressure = (specific weight of liquid)*(Height)
  • pressure = (1/3)*Density of Gas*(Root mean square velocity)^2
  • pressure = 2*Total downward force on soil/(3*middle third distance)
  • pressure = Theoretical torque/Theoretical volumetric displacement
  • pressure = Force/Area of piston
  • pressure = Force/(Area of piston-Area of piston rod)
  • pressure = Boltzmann constant 1*Freestream density*((Energy/Freestream density)^(1/2))/(Time)
  • pressure = [BoltZ]*Freestream density*((Energy/Freestream density)^(2/3))*(Time)^(-2/3)
  • pressure = [BoltZ]*Freestream density*(sqrt(pi/8))*Diameter *(sqrt(Drag Coefficient))*(Freestream Velocity^2/Distance from X-axis)
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